Protective eyewear

ABSTRACT

Protective eyewear may include an eyewear frame having a topmost frame member extending from a left pivotable temple to a right pivotable temple. A lens is coupled directly to a lower edge of the topmost frame member. The lens is unitary from a left side to a right side of a nose bridge of the eyewear, such that the lens is configured to cover both eyes of a user when worn. Both the lower edge of the topmost frame member and an upper edge of the topmost frame member include a discrete central raised portion extending upward from left and right segments.

CROSS-REFERENCES

The following applications and materials are incorporated herein, intheir entireties, for all purposes: U.S. Provisional Patent ApplicationNo. 62/048,253, filed Sep. 9, 2014 and entitled “Protective EyewearSystems and Methods;” U.S. patent application Ser. No. 14/548,217, filedNov. 19, 2014 and entitled “Protective Eyewear Systems and Methods;”U.S. Design patent application Ser. No. 29/501,895, filed Sep. 9, 2014,now U.S. Pat. No. D727,400, issued Apr. 21, 2015 entitled “Sunglasses;”and U.S. patent application Ser. No. 13/750,093, filed Jan. 25, 2013 andentitled “Air Cooled Goggle.”

FIELD

This disclosure relates to systems and methods for eyewear. Morespecifically, disclosed embodiments relate to protective eyewearincluding glasses and goggles.

INTRODUCTION

Protective eyewear (e.g., goggles, sunglasses, and/or other eyeprotection devices) are used for a wide range of activities includingmotorcycle racing, snowboarding, skiing, BMX, road bicycling, and otheractivities where eye protection is critical while maintaining goodvisibility in a wide range of weather conditions. Increasingly complexframes have been developed to create improved fit and flexcharacteristics and to allow the eyewear to be used with a variety ofdifferent types of helmets. Attempts have also been made to manageairflow to prevent fogging by providing smooth, laminar airflow acrossthe back surface of the lens. However, while protective eyewear may beused in a wide range of weather conditions, one drawback to the use ofconventional eyewear is the prevention of natural air cooling. Moreover,conventional frame designs often detrimentally restrict the user's view,which can be particularly hazardous during training and sporting events.Thus, there is a need for an improved methodology for eye protectiondevices that provide increased viewing areas and disburse fresh airacross areas where the eyewear otherwise prevents effective coolingwithout introducing dust or other irritants into the eyes.

SUMMARY

Techniques are disclosed for systems and methods to provide an eyeprotection device with an extended vertical view, among other features.An eye protection device of the present disclosure may include a framehaving an outer surface that is oriented away from a user's face and aninner surface that is oriented towards the user's face. The frame mayinclude left and right temples configured to secure the eye protectiondevice to the user and a central raised portion disposed between a leftportion and a right portion of a top portion of the frame. The centralraised portion may extend vertically above a substantially continuousprofile of the left and right portions to provide an extended verticalview.

In some embodiments, protective eyewear may include: an eyewear frameincluding a topmost frame member extending from a left pivotable templeto a right pivotable temple; and a lens coupled directly to a lower edgeof the topmost frame member, the lens being unitary from a left side toa right side of a nose bridge of the eyewear, such that the lens isconfigured to cover both eyes of a user when worn; wherein both thelower edge of the topmost frame member and an upper edge of the topmostframe member include a discrete central raised portion extending upwardfrom left and right segments of the topmost frame member.

In some embodiments, protective eyewear may include: an eyewear frameincluding a topmost frame member extending from a left pivotable templeto a right pivotable temple; and a lens coupled directly to a lower edgeof the topmost frame member, the lens being unitary from a left side toa right side of a nose bridge of the eyewear, such that the lens isconfigured to cover both eyes of a user when worn; wherein the topmostframe member includes a left segment, a right segment, and a middlesegment, each of which is oriented mediolaterally, the left segment andthe right segment being aligned with each other at a first height andthe middle segment being disposed at a higher second height to define acentral raised portion of the frame; and wherein the lens fills a spacedefined by the central raised portion.

Features, functions, and advantages may be achieved independently invarious embodiments of the present disclosure, or may be combined in yetother embodiments, further details of which can be seen with referenceto the following description and drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a diagram showing a front view of an embodiment of the presentdisclosure.

FIG. 2 is a diagram showing a top view of an embodiment of the presentdisclosure showing the air pathways through the frame of the goggle.

FIG. 3 is a diagram showing a bottom view of an embodiment of thepresent disclosure showing the air pathways through the frame of thegoggle.

FIG. 4 is a diagram showing a section of the frame of an embodiment ofthe present disclosure.

FIG. 5 is a diagram showing the same section of the frame of anembodiment of the present disclosure with foam positioned on the innersurface of the frame.

FIG. 6 is a diagram showing a front view of an embodiment of the presentdisclosure.

FIG. 7 is a diagram showing a side view of an embodiment of the presentdisclosure.

FIG. 8 is a diagram showing a side view of an embodiment of the presentdisclosure.

FIG. 9 is a diagram showing a rear view of an embodiment of the presentdisclosure.

FIG. 10 is a diagram showing a top view of an embodiment of the presentdisclosure.

FIG. 11 is a diagram showing a bottom view of an embodiment of thepresent disclosure.

FIG. 12 is a diagram showing an orthographic view of an embodiment ofthe present disclosure.

FIG. 13 is a diagram showing an orthographic view of an embodiment ofthe present disclosure.

DETAILED DESCRIPTION

Various aspects and examples of protective eyewear, as well as relatedmethods, are described below and illustrated in the associated drawings.Unless otherwise specified, protective eyewear in accordance with thepresent teachings, and/or its various components, may contain at leastone of the structures, components, functionalities, and/or variationsdescribed, illustrated, and/or incorporated herein. Furthermore, unlessspecifically excluded, the process steps, structures, components,functionalities, and/or variations described, illustrated, and/orincorporated herein in connection with the present teachings may beincluded in other similar devices and methods, including beinginterchangeable between disclosed embodiments. The following descriptionof various examples is merely illustrative in nature and is in no wayintended to limit the disclosure, its application, or uses.Additionally, the advantages provided by the examples and embodimentsdescribed below are illustrative in nature and not all examples andembodiments provide the same advantages or the same degree ofadvantages.

Referring to FIGS. 1 through 5, various exemplary embodiments aredepicted comprising an eye protection device (e.g., goggle) 100generally comprising a lens 102, mounted in a frame 104 and a strap 106to hold the frame 104 and lens 102 securely against the user's face.Frame 104 is commonly made of a flexible polymer and includes an innersurface 108 that is shaped to conform to the user's face. This innersurface 108 is covered by a liner 110 such as a sheet of face foam toprovide a comfortable seal against the user's face and help to absorbmoisture such as perspiration.

The top area of inner surface 108 presses against the user's foreheadarea, the bottom area of inner surface 108 presses against the user'scheeks and across the user's nose, and the side areas of inner surface108 press against the user's temples. Since the inner surface 108 istypically positioned behind the lens 102 and outer surface 118 of frame104, inner surface 108 and liner 110 do not receive consistent airflowand thus may become a hot spot during exertion or in hot weatherconditions that can cause discomfort and fogging issues.

In an exemplary embodiment, one or more cooling vents are provided tomanage airflow through the frame 104 so that it can be disbursed intothe liner 110. In an exemplary embodiment, the cooling vents comprisefirst apertures 120 through the outer surface 118 of frame 104 thatconnect to channels 122 through the frame 104. These channels 122connect to second apertures 124 through the inner surface 108. Thus, asillustrated in FIGS. 2 and 3, air flowing in through the first apertures120 will pass along the channels 122 and through the second apertures124, where it will be disbursed through the liner 110, cooling the liner110 and the user's skin. Screens or other filters can be placed in thefirst apertures 120, channels 122, or second apertures 124 asappropriate.

Because these cooling vents provide a direct channel to the liner 110,the incoming airflow is not disbursed into the space between the lens102 and the user's eyes and portion of their face that is within theareas circumscribed by inner surface 108. Venting into that space istypically managed by various types of direct vents 128 that allow air toflow in and out through the frame 104.

It will be readily understood that the size, shape, configuration, andorientation of the cooling vents disclosed herein can be varied whilestill practicing the disclosed principles. For example, goggles designedfor use in dusty environments such as motocross racing may have firstapertures of a relatively small size to reduce the risk of taking inlarge quantities of dust and dirt. Goggles designed for uses such assnowboarding or skiing may have larger apertures and channels, as dustis not a concern, but may utilize some type of closure mechanism toprevent cooling when the outside air is particularly cold. The shape andcontours of the channels may also be varied to manage airflow throughthe frame.

Referring to FIGS. 6 through 13, various exemplary embodiments aredepicted comprising an eye protection device (e.g., sunglasses) 200generally comprising a lens 202, mounted in a frame 204 and temples 206to hold the frame 204 and lens 202 securely near and/or against a user'sface. Frame 204 may be made of a rigid or flexible polymer and mayinclude an inner surface 208 that is generally shaped to conform to theuser's face. In some embodiments, portions of inner surface 208 may becovered by a liner (e.g., similar to liner 110 in FIGS. 2-3 and 5) suchas a sheet of foam to provide a comfortable seal against the users faceand help to absorb moisture such as perspiration. For example, such aliner may cover the inner surface of a top portion of frame 204 andpress against the user's forehead area to prevent sweat from enteringthe space between lens 202 and the user's face. In various embodiments,inner surface 208 may include side areas 272 configured to conformgenerally to the shape of a user's temples. Corresponding side portions274 of frame 202 may be configured to join temples 206 to the rest offrame 202, and/or to couple to lens 202, for example, and may beimplemented as fixed, hinged, and/or curved joints and/or engagementdevices, as described herein.

As shown in FIG. 6, frame 204 may in some embodiments include a centralraised portion 230 disposed between left portion 232 and right portion234 of a top portion of frame 202 (e.g., the portion of frame 204substantially above lens 202). For example, central raised portion 230may extend vertically a distance 236 above a substantially continuousprofile (e.g., indicated by dashed line 238) corresponding to the leftand right portions 232 and 234 of frame 204. In some embodiments,distance 236 may be equal to or greater than 3 mm, 3.5 mm, 4 mm, and/orother distances between 3 mm and 10 mm, for example, to allow for anextended vertical view for a user through central mesa portion 240 oflens 202. In various embodiments, central raised portion 230 may becoupled or joined to left and right portions 232 and 234 bycorresponding left and right angled joints 242 and 244 formed from frame204. In such embodiments, left and/or right angled joints 242 and/or 244may be formed large enough to support apertures and/or channels toconduct airflow from an outer surface 205 of frame 204 to an innersurface 208 of frame 204 (e.g., see FIG. 9).

In FIG. 6, distance 246 illustrates the half width of central raisedportion 230 roughly measuring the distance from the center line ofcentral raised portion 230 (e.g., and frame 204) to a point where angledjoint 244 deviates from profile 238. In some embodiments, distance 246may be between approximately 20 mm and 60 mm, between approximately 30mm and 60 mm, between approximately 40 mm and 60 mm, and/or otherdistances between approximately 20 mm and 80 mm, for example, to allowfor a relatively wide extended vertical view for a user through centralmesa portion 240 of lens 202. In further embodiments, distances 236and/or 246, and/or a rake or angle of angled joints 242 and/or 244 maybe adjusted to provide an increased or tailored extended vertical viewfor a particular eye spacing for a user, for example, yet still providesome protection from sunlight impinging upon left and/or right portions232 and 234 of frame 204. Further, in some embodiments, frame 204 mayinclude a relatively wide top surface 280 (e.g., see FIG. 10) to helpblock sunlight that would otherwise reach a user's eyes between a spacebetween the top portion of frame 204 and a user's forehead.

Also shown in FIG. 6 are various features to provide adjustable airflowto a user wearing sunglasses 200, such as lens air scoops 250 disposedon either side of bridge 252 along a lower edge 254 of lens 202. Lensair scoops 250 may be formed from a relatively rigid or flexiblepolymer, for example, and/or from the same material utilized to formframe 204. In some embodiments, lens air scoops 250 may be glued orotherwise permanently fixed to lens 202, for example, and/or may includea hinged portion that may be utilized to open, close, or meter airflowthrough lens air scoops 250. In some embodiments, lens air scoops 250may be removably coupled to lens 202, for example, and/or may be formedin conjunction with corresponding apertures formed through lens 202 anddisplaced away from lower edge 254 of lens 202.

Lens 202 may in some embodiments be a cylindrically or otherwise cutlens approximately 2 mm thick and including various coatings, fixedappendages, and/or other structures facilitating its use as a lens forsunglasses 200. In some embodiments, lens 202 may be between 1 mm and 3mm thick to decrease weight, for example, or increase protection againstballistic and/or other objects that would otherwise harm the user. Inaddition to lower edge 254, lens 202 may include top edge 256, sideedges 258, outer surface 260, and inner surface 262 (e.g., see FIG. 9).Edges 254, 256, and 258 may be configured to mate with channels,notches, adhesives, and/or other engagement devices associated withframe 204, lens air scoops 250, and/or nose pad 264, for example, so asto be removable and/or interchangeable with other lenses. In someembodiments, lens 202 may be selected from a range of profiles (e.g.,height of lens 202) to reduce weight or increase airflow (e.g., with orwithout lens air scoops 250). As shown in FIG. 6, portions of lower edge254 and side edges 258 may be free from any engagement device so as toreduce weight and provide for customized sizing to a user's cheek area,for example. Surfaces 260 and/or 262 may include one or moreantireflective coatings, color coatings, filter coatings, hydrophobiccoatings, anti-fog coatings, and/or other coatings to facilitate use oflens 202 in sunglasses 200. In some embodiments, surface 260 may supportlaser etching for product marketing and/or other optical features, andthe material used to form lens 202 may be tinted or otherwise selectedfor a particular desired color. More generally, lens 202 may be made ofone or more materials that are partially or totally absorptive orreflective of one or more types of ultraviolet radiation, for example,and lens 202 may be configured (e.g., through choice of materials,formation methods, polishing methods, coating application methods,and/or other configuration choices) to provide clarity of view for auser in any of a variety of different environmental conditions (e.g.,desert, sea, mountain, summer, winter, and/or other environmentalconditions).

Additionally shown in FIG. 6 is nose pad 264, which in some embodimentsmay include grip portion 266, that is configured to help securesunglasses 200 to a user's face. For example, nose pad 264 may beconfigured to be positioned between bridge 252 of the eye protectiondevice and the user's nose. Nose pad and/or grip portion may beimplemented from a relatively rigid or flexible polymer or material, forexample, and in some specific embodiments, grip portion 266 may beformed from and/or coated with Megol® rubber or other relativelyflexible and soft material to help comfortably secure sunglasses 200 tothe user's face. In some embodiments, nose pad 264 may be glued orotherwise permanently fixed to bridge 252 and/or lower edge 254 of lens202, for example. In some embodiments, nose pad 264 may be removablycoupled to lens 202 so as to be interchangeable with other nose pads,such as nose pads designed to fit a particular user's nose or comfortlevel, or to provide additional protection against objects that wouldotherwise strike a user's face or nose.

As shown in FIG. 7, in some embodiments, temples 206 of sunglasses 200may include one or more temple air scoops 268 formed within temples 206.Temple air scoops 268 may be formed as scoop-like apertures and channelsextending from an outer surface of temple 206 to an inner surface oftemple 206 that is typically close to or in contact with a user's templearea. As shown, temple air scoops 268 may be configured to scoop airtraveling from the front of sunglasses 200 toward the rear of sunglasses200 generally horizontally along temple 206, for example, and deliver itto the user's temple area so as to increase airflow and decreasediscomfort due to heat and/or sweat buildup between frame 204 and theuser's head.

As shown in FIGS. 12 and 13, the general wraparound design of sunglasses200 (e.g., and/or of lens 202 and/or frame 204) facilitates securingsunglasses 200 to a user's face while providing protection from almostall angles of sunlight and/or objects that might otherwise harm a user'seyes and/or face. For example, temples 206 may include temple gripportions 270 to help comfortably secure sunglasses 200 to a user, suchas without interfering with a helmet. In some embodiments, temple gripportions 270 may be formed in the same manner and/or using the samematerial used to form nose pad grip portions 266. Moreover, thewraparound design may be configured to provide ample space between lens202 and a user's face, which can help increase airflow and reduce achance of fogging/condensation. In particular, the horizontal and/orvertical curvature (e.g., or absence of curvature) of lens 202 (e.g.,and/or frame 204), as shown in FIGS. 12 and 13, may provideconfigurable/selectable space between lens 202 and a user's face, forexample, through use of the interchangeable nature of lens 202.

A typical method of use may include steps of assembly of sunglasses 200from component parts, such as before or after testing a particularassembly for fit, adequate cooling, adequate view, and/or selectingparticular components for a specific expected use, such as motocross,fishing, running, and/or other uses. For example, a first step mayinclude inspecting frame 204 for a particular size and shape of centralraised portion 230, for example, and narrowing a selection of lenses toonly those that will fit frame 204. Next, a particular lens 202 may beselected according to a desired level of tint, a particular coating, aparticular profile (e.g., size and/or coverage), a particular curvature,and/or other characteristics disclosed herein. Then, the selected lensmay be attached to frame 204 (e.g., to top portion 205 and side portions274 of frame 204) through use of channels and/or other engagementdevices or structures of frame 204 and/or lens 202. In some embodiments,a particular lens 202 may come with attached lens air scoops 250. Insome embodiments, specific lens air scoops may be selected and attachedto lens 202. Next, a particular nose pad 264 may be selected forcomfort, fit, and/or other desire characteristics described herein.Then, the selected nose pad 264 may be attached to lens 202 at bridge252 and/or along lower edge 254, as shown in FIGS. 6-13. Once assemblyis complete sunglasses 200 may be placed around a user's face, temple,and/or head to secure sunglasses 200 to the user. A user wearingsunglasses 200 may then participate in an activity and sunglasses 200may provide an extended vertical view with which to see, for example, aroad or vertical periphery while riding a bicycle or motorcycle and/orotherwise engaging in a sport.

CONCLUSION

In this disclosure, one or more publications, patents, and/or patentapplications may be incorporated by reference. However, such material isonly incorporated to the extent that no conflict exists between theincorporated material and the statements and drawings set forth herein.In the event of any such conflict, including any conflict interminology, the present disclosure is controlling.

The disclosure set forth above may encompass multiple distinct exampleswith independent utility. Although each of these has been disclosed inits preferred form(s), the specific embodiments thereof as disclosed andillustrated herein are not to be considered in a limiting sense, becausenumerous variations are possible. To the extent that section headingsare used within this disclosure, such headings are for organizationalpurposes only. The subject matter of the disclosure includes all noveland nonobvious combinations and subcombinations of the various elements,features, functions, and/or properties disclosed herein. The followingclaims particularly point out certain combinations and subcombinationsregarded as novel and nonobvious. Other combinations and subcombinationsof features, functions, elements, and/or properties may be claimed inapplications claiming priority from this or a related application. Suchclaims, whether broader, narrower, equal, or different in scope to theoriginal claims, also are regarded as included within the subject matterof the present disclosure.

The invention claimed is:
 1. Protective eyewear, comprising: an eyewearframe including a topmost frame member extending from a left pivotabletemple to a right pivotable temple; and a lens coupled directly to alower edge of the topmost frame member, the lens being unitary from aleft side to a right side of a nose bridge of the eyewear, such that thelens is configured to cover both eyes of a user when worn; wherein boththe lower edge of the topmost frame member and an upper edge of thetopmost frame member include a discrete central raised portion extendingupward from left and right segments of the topmost frame member.
 2. Theprotective eyewear of claim 1, wherein the central raised portion has agenerally trapezoidal shape.
 3. The protective eyewear of claim 1,wherein no other portion of the eyewear frame obstructs the centralraised portion when viewed from a front or a back of the lens.
 4. Theprotective eyewear of claim 1, wherein the left and right segments ofthe topmost frame member are aligned with each other across the centralraised portion.
 5. The protective eyewear of claim 1, wherein an upperedge of the lens is in continuous contact with the lower edge of thetopmost frame member across a width of the frame.
 6. The protectiveeyewear of claim 5, wherein the central raised portion of the lower edgeof the topmost frame member defines a trapezoidal region, and the lensincludes a trapezoidal portion that fills the trapezoidal region.
 7. Theprotective eyewear of claim 1, wherein the left pivotable temple and theright pivotable temple each comprise a respective channel extending froma respective first aperture formed on a lateral surface of thecorresponding pivotable temple to a respective second aperture formed ona medial surface of the corresponding pivotable temple.
 8. Theprotective eyewear of claim 7, wherein the left and right pivotabletemples are coupled to the topmost frame member at respective connectionpoints, and each of the first apertures is disposed between thecorresponding connection point and the corresponding second aperture,wherein each of the first apertures is formed on a forward-facingportion of the corresponding lateral surface.
 9. The protective eyewearof claim 1, further comprising at least one airflow passage at leastpartially defined by the lower edge of the lens, the airflow passageextending from a front surface of the eyewear to a rear surface of theeyewear.
 10. The protective eyewear of claim 9, wherein the at least oneairflow passage is defined between the lower edge of the lens and alateral portion of the nose bridge of the eyewear extending below thelower edge of the lens.
 11. Protective eyewear, comprising: an eyewearframe including a topmost frame member extending from a left pivotabletemple to a right pivotable temple; and a lens coupled directly to alower edge of the topmost frame member, the lens being unitary from aleft side to a right side of a nose bridge of the eyewear, such that thelens is configured to cover both eyes of a user when worn; wherein thetopmost frame member includes a left segment, a right segment, and amiddle segment, each of which is oriented mediolaterally, the leftsegment and the right segment being aligned with each other at a firstheight and the middle segment being disposed at a higher second heightto define a central raised portion of the frame; and wherein the lensfills a space defined by the central raised portion.
 12. The protectiveeyewear of claim 11, wherein the space defined by the central raisedportion has a generally trapezoidal perimeter.
 13. The protectiveeyewear of claim 11, wherein no other portion of the eyewear frameobstructs the central raised portion when viewed from a front or a backof the lens.
 14. The protective eyewear of claim 11, wherein an upperedge of the lens is in continuous contact with a lower edge of thetopmost frame member across a width of the frame.
 15. The protectiveeyewear of claim 11, wherein no other portion of the protective eyewearextends above the middle segment of the topmost frame member when worn.16. The protective eyewear of claim 11, wherein the left pivotabletemple and the right pivotable temple each comprise a respective channelextending from a respective first aperture formed on a lateral surfaceof the corresponding pivotable temple to a respective second apertureformed on a medial surface of the corresponding pivotable temple. 17.The protective eyewear of claim 16, wherein the left and right pivotabletemples are coupled to the topmost frame member at respective connectionpoints, and each of the first apertures is disposed between thecorresponding connection point and the corresponding second aperture,and wherein each of the first apertures is formed on a forward-facingportion of the corresponding lateral surface.
 18. The protective eyewearof claim 11, further comprising at least one airflow passage at leastpartially defined by the lower edge of the lens, the airflow passageextending from a front surface of the eyewear to a rear surface of theeyewear.
 19. The protective eyewear of claim 18, wherein the at leastone airflow passage is defined between the lower edge of the lens and alateral portion of the nose bridge of the eyewear extending below thelower edge of the lens.